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/**************************************************************************************
* 2013/11/14 Saar
* 	 BLASTEST 		: OK
* 	 CTEST			: OK
* 	 TEST			: OK
*
**************************************************************************************/

#define ASSEMBLER
#include "common.h"

#define STACKSIZE 256

#if !defined(__ARM_PCS_VFP)

#if !defined(COMPLEX)

#if !defined(DOUBLE)
#define OLD_X		[fp, #0 ]
#define	OLD_INC_X	[fp, #4 ]
#define	OLD_Y		[fp, #8 ]
#define	OLD_INC_Y	[fp, #12 ]
#else
#define OLD_X		[fp, #8 ]
#define	OLD_INC_X	[fp, #12]
#define	OLD_Y		[fp, #16]
#define	OLD_INC_Y	[fp, #20]
#endif

#else //COMPLEX

#if !defined(DOUBLE)
#define OLD_X		[fp, #4 ]
#define	OLD_INC_X	[fp, #8 ]
#define	OLD_Y		[fp, #12 ]
#define	OLD_INC_Y	[fp, #16 ]
#else
#define OLD_X		[fp, #16]
#define	OLD_INC_X	[fp, #20]
#define	OLD_Y		[fp, #24]
#define	OLD_INC_Y	[fp, #28]
#endif

#endif // !defined(__ARM_PCS_VFP)

#else
#define	OLD_INC_X	[fp, #0 ]
#define	OLD_Y		[fp, #4 ]
#define	OLD_INC_Y	[fp, #8 ]
#endif


#define	N	r0
#define Y	r1
#define	INC_X	r2
#define	X	r3
#define INC_Y	r4

#define I	r12

#define X_PRE	512

/**************************************************************************************
* Macro definitions
**************************************************************************************/

/*****************************************************************************************/



#if	!defined(COMPLEX)

#if	defined(DOUBLE)

.macro KERNEL_F4

	pld	[ X, #X_PRE ]
	pld	[ Y, #X_PRE ]
	fldmiad	X,  { d0 - d3 }
	fldmiad	Y,  { d4 - d7 }
	fstmiad	Y!, { d0 - d3 }
	fstmiad	X!, { d4 - d7}

.endm


.macro KERNEL_F1

	fldmiad	X,  { d0 }
	fldmiad	Y,  { d4 }
	fstmiad	Y!, { d0 }
	fstmiad	X!, { d4 }

.endm

.macro KERNEL_S1

	fldmiad	X, { d0 }
	fldmiad	Y, { d4 }
	fstmiad	Y, { d0 }
	fstmiad	X, { d4 }
	add	X, X, INC_X
	add	Y, Y, INC_Y

.endm

#else

.macro KERNEL_F4

	fldmias	X,  { s0 - s3 }
	fldmias	Y,  { s4 - s7 }
	fstmias	Y!, { s0 - s3 }
	fstmias	X!, { s4 - s7}

.endm


.macro KERNEL_F1

	fldmias	X,  { s0 }
	fldmias	Y,  { s4 }
	fstmias	Y!, { s0 }
	fstmias	X!, { s4 }

.endm

.macro KERNEL_S1

	fldmias	X, { s0 }
	fldmias	Y, { s4 }
	fstmias	Y, { s0 }
	fstmias	X, { s4 }
	add	X, X, INC_X
	add	Y, Y, INC_Y

.endm


#endif

#else

#if	defined(DOUBLE)

.macro KERNEL_F4

	pld	[ X, #X_PRE ]
	pld	[ Y, #X_PRE ]
	fldmiad	X,  { d0 - d3 }
	fldmiad	Y,  { d4 - d7 }
	fstmiad	Y!, { d0 - d3 }
	fstmiad	X!, { d4 - d7}

	pld	[ X, #X_PRE ]
	pld	[ Y, #X_PRE ]
	fldmiad	X,  { d0 - d3 }
	fldmiad	Y,  { d4 - d7 }
	fstmiad	Y!, { d0 - d3 }
	fstmiad	X!, { d4 - d7}

.endm

.macro KERNEL_F1

	fldmiad	X,  { d0 - d1 }
	fldmiad	Y,  { d4 - d5 }
	fstmiad	Y!, { d0 - d1 }
	fstmiad	X!, { d4 - d5 }

.endm

.macro KERNEL_S1

	fldmiad	X,  { d0 - d1 }
	fldmiad	Y,  { d4 - d5 }
	fstmiad	Y,  { d0 - d1 }
	fstmiad	X,  { d4 - d5 }
	add	X, X, INC_X
	add	Y, Y, INC_Y

.endm


#else

.macro KERNEL_F4

	pld	[ X, #X_PRE ]
	pld	[ Y, #X_PRE ]
	fldmias	X,  { s0 - s3 }
	fldmias	Y,  { s4 - s7 }
	fstmias	Y!, { s0 - s3 }
	fstmias	X!, { s4 - s7}

	fldmias	X,  { s0 - s3 }
	fldmias	Y,  { s4 - s7 }
	fstmias	Y!, { s0 - s3 }
	fstmias	X!, { s4 - s7}

.endm

.macro KERNEL_F1

	fldmias	X,  { s0 - s1 }
	fldmias	Y,  { s4 - s5 }
	fstmias	Y!, { s0 - s1 }
	fstmias	X!, { s4 - s5 }

.endm

.macro KERNEL_S1

	fldmias	X,  { s0 - s1 }
	fldmias	Y,  { s4 - s5 }
	fstmias	Y,  { s0 - s1 }
	fstmias	X,  { s4 - s5 }
	add	X, X, INC_X
	add	Y, Y, INC_Y

.endm



#endif

#endif

/**************************************************************************************
* End of macro definitions
**************************************************************************************/

	PROLOGUE

	.align 5
	push    {r4 , fp}
        add     fp, sp, #8

#if !defined(__ARM_PCS_VFP)
	ldr	X, OLD_X
#endif
	ldr    INC_X , OLD_INC_X
	ldr         Y, OLD_Y
	ldr    INC_Y , OLD_INC_Y


	cmp	N, #0
	ble	swap_kernel_L999

	cmp	INC_X, #0
	beq	swap_kernel_L999

	cmp	INC_Y, #0
	beq	swap_kernel_L999

	cmp	INC_X, #1
	bne	swap_kernel_S_BEGIN

	cmp	INC_Y, #1
	bne	swap_kernel_S_BEGIN


swap_kernel_F_BEGIN:


	asrs	I, N, #2					// I = N / 4
	ble	swap_kernel_F1

	.align 5

swap_kernel_F4:

#if !defined(COMPLEX) && !defined(DOUBLE)
	pld	[ X, #X_PRE ]
	pld	[ Y, #X_PRE ]
#endif

	KERNEL_F4

	subs	I, I, #1
	ble	swap_kernel_F1

	KERNEL_F4

	subs	I, I, #1
	bne	swap_kernel_F4

swap_kernel_F1:

	ands	I, N, #3
	ble	swap_kernel_L999

swap_kernel_F10:

	KERNEL_F1

	subs    I, I, #1
        bne     swap_kernel_F10

	b	swap_kernel_L999

swap_kernel_S_BEGIN:

#if defined(COMPLEX)

#if defined(DOUBLE)
	lsl	INC_X, INC_X, #4				// INC_X * SIZE * 2
	lsl	INC_Y, INC_Y, #4				// INC_Y * SIZE * 2
#else
	lsl	INC_X, INC_X, #3				// INC_X * SIZE * 2
	lsl	INC_Y, INC_Y, #3				// INC_Y * SIZE * 2
#endif

#else

#if defined(DOUBLE)
	lsl	INC_X, INC_X, #3				// INC_X * SIZE
	lsl	INC_Y, INC_Y, #3				// INC_Y * SIZE
#else
	lsl	INC_X, INC_X, #2				// INC_X * SIZE
	lsl	INC_Y, INC_Y, #2				// INC_Y * SIZE
#endif

#endif


	asrs	I, N, #2					// I = N / 4
	ble	swap_kernel_S1

	.align 5

swap_kernel_S4:

	KERNEL_S1
	KERNEL_S1
	KERNEL_S1
	KERNEL_S1

	subs	I, I, #1
	bne	swap_kernel_S4

swap_kernel_S1:

	ands	I, N, #3
	ble	swap_kernel_L999

swap_kernel_S10:

	KERNEL_S1

	subs    I, I, #1
        bne     swap_kernel_S10


swap_kernel_L999:

	mov	r0, #0		// set return value

	sub     sp, fp, #8
	pop     {r4,fp}
	bx	lr

	EPILOGUE

